JP5035493B2 - Water treatment equipment provision system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water treatment facility providing system suitable for temporarily lending water treatment facilities.
[0002]
[Related background]
In manufacturing plants for semiconductors, for example, a large amount of treated water (pure water) from which impurities such as salt are removed is used for cleaning manufactured products. For this reason, in the said factory, the water treatment equipment provided with the activated carbon filter, the ion exchanger, etc. is provided exclusively as the incidental equipment.
[0003]
By the way, the above water treatment facilities are individually designed according to water treatment specifications including the amount and quality of treated water required in various factories, and are constructed as original facilities according to the factory environment.
[0004]
[Problems to be solved by the invention]
By the way, in the said factory, a larger amount of treated water may be needed with the temporary expansion of product production scale. In shipyards and the like, a large amount of treated water may be required only when the boiler is assembled to the ship. However, in anticipation of such a temporary mass demand for treated water, it is very expensive to provide a large-scale water treatment facility in advance. Moreover, since the processing capacity is not always exhibited, there is a problem that the operation cost is very bad. Especially in shipyards, there is a problem that the operation efficiency itself is poor because the period of time required for water treatment facilities is limited.
[0005]
The present invention has been made in consideration of such circumstances, and its purpose is to lend out water treatment facilities temporarily, and is suitable for dealing with the demand for temporary treated water (pure water) in factories and the like. Is to provide a system for providing water treatment facilities.
[0006]
[Means for Solving the Problems]
In order to achieve the above-described object, a water treatment facility providing system according to the present invention includes an inventory management database that manages the inventory of a plurality of types of units that are water treatment equipment constituting the water treatment facility. when a loan request, determines the type of the units required to meet the required water treatment specifications, by combining a plurality of kinds of units designed the equipment specifications based on the determination (facility design means ) According to the designed equipment specifications, the inventory management database is referred to determine the stock of units necessary for constructing the equipment specifications (inventory judging means). Then, in accordance with the judgment result, an out-of-stock unit is manufactured, a water treatment facility having the equipment specifications is constructed using the inventory unit, and installed at a designated location (equipment construction means), and water is supplied from the designated location. When the treatment facility is withdrawn, a plurality of units that have constructed the water treatment facility are stored as inventory, and information on the stored units is registered in the inventory management database (equipment recovery means).
[0007]
Incidentally the plural kinds of units, the activated carbon filter, a reverse osmosis membrane unit, electrodeionization device, non-regenerative ion exchanger, membrane type filter or Ranaru. Further, the facility design means obtains the type and number of units necessary for constructing the facility specification satisfying the water treatment specification according to the water quality and the amount of water indicated in the water treatment specification, and the unit design means as a series of a plurality of types of units. It is characterized by designing a water treatment facility that satisfies water treatment specifications.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a water treatment facility providing system according to an embodiment of the present invention will be described with reference to the drawings.
This water treatment facility providing system constructs a water treatment facility having a predetermined water treatment capacity, for example, for use as a backup of the existing water treatment facility that the customer has, in response to requests from customers such as various manufacturing plants. The water treatment facility is suitable for temporarily renting out to the customer. In order to temporarily construct a water treatment facility in response to the request from such customers, in this system, a plurality of types of constituent elements of the water treatment facility, such as an activated carbon filter (CF), a millibore filter (MF) ), Reverse osmosis membrane module (RO), electric deionizer (KCDI), non-regenerative ion exchanger (DZ), membrane filter (PF), deaeration membrane (DC), etc. Each of these units is selectively used according to the water treatment specification, so that a water treatment facility having a predetermined facility specification can be constructed.
[0009]
Each of these units is configured to have a size that can be easily transported by, for example, a truck, and the specifications of the water supply / drainage system (in order to be able to connect to each other at the facility site to construct a predetermined water treatment facility ( For example, the pipe diameter is standardized. Each of these units is registered and managed in the inventory management database DB, and is selectively shipped according to equipment specifications.
[0010]
The system functions in response to a request for lending water treatment equipment from a customer as shown in FIG. That is, when there is a water treatment facility rental request, the customer first inputs the water treatment specification requested [step S1]. This water treatment specification is basically given as information on the amount of treated water and the quality of water to be generated. More specifically, the amount of treated water per unit time, the type of raw water, the electrical conductivity (specific resistance) and the TOC (total organic carbon) component, etc. for evaluating the quality of treated water are input as water treatment specifications. .
[0011]
When such a water treatment specification is input, the design of a water treatment facility that satisfies this water treatment specification is executed [step S2]. In this facility design, for example, as shown in FIG. 2, the amount of treated water is determined (Process 2a), the quality of water is determined (Process 2b), the type of raw water is determined (Process 2c), and the above-mentioned determination is made according to these determination results. By referring to the list 2d of each unit prepared as described above and the standard model 2e of the water treatment facility constructed according to the specifications, the types of units used for constructing the water treatment facility satisfying the water treatment specifications described above This is done by determining the number (process 2f).
[0012]
Specifically, as a standard model 2e for water treatment equipment, for example, a plurality of types of equipment configuration examples are prepared according to the water quality specifications shown in FIGS. 3 (a) to 3 (d). The optimum standard model 2e is selected according to the determination result described above. Further, a unit to be added to the standard model 2e is selected as necessary. In addition, when the amount of treated water per unit time in each unit is insufficient, it is also examined whether or not the above-described standard model 2e is used in parallel across a plurality of systems.
[0013]
For example, when the daily operation time is 8 hours or more and the maximum monthly sampling volume exceeds 10,800 m ³ , activated carbon filter (CF), millibore filter (MF) as shown in FIG. ), A reverse osmosis membrane module (RO), and a water treatment facility constructed using an electrical deionizer (KCDI). On the other hand, when the daily operation time is less than 8 hours and the maximum water intake per month is about 3,600 m ^3, it is an inexpensive non-regenerative type instead of the electric deionization device (KCDI). The equipment using the ion exchanger (DZ) is, as shown in FIG. 3 (b), activated carbon filter (CF), millibore filter (MF), reverse osmosis membrane module (RO), and non-regenerative ion exchange. A water treatment facility constructed using a vessel (DZ) is selected.
[0014]
When the raw water contains carbon dioxide of 6-8 ppm or more, for example, as shown in FIG. 3 (c), an activated carbon filter (CF), a millibore filter (MF), a reverse osmosis membrane module (RO), A water treatment facility constructed using a degassing membrane (DC) and a non-regenerative ion exchanger (DZ) is selected. In addition, when the raw water is well water, as shown in FIG. 3 (d), the water treatment has a structure in which a membrane filter (PF) is further provided in the uppermost stream of the equipment shown in FIG. 3 (c). Equipment is selected.
[0015]
When the water treatment facility is designed according to the water quality specification in this way, whether the units necessary for constructing the water treatment facility are managed as inventory with reference to the inventory management database DB described above. Whether or not is searched [step S3]. If the necessary unit does not exist in stock [Step S4], the unit is manufactured [Step S5], and the water treatment indicated by the equipment specifications using the newly manufactured unit and the inventory unit. Equipment is constructed [step S6]. In addition, when all the units necessary for constructing the water treatment facility are managed as inventory [Step S4], it is needless to say that it is not necessary to manufacture a new unit. A water treatment facility indicated in the specification is constructed [step S6]. After confirming the operation of the water treatment facility, the units are transferred to the facility delivery destination, and the water treatment facility is rented by assembling the water treatment facility at the facility site [step S7].
[0016]
Therefore, in the lending period of the water treatment facility, for example, as schematically shown in FIG. 4, the amount of treated water detected by the management water quality / water quality monitoring unit 11 attached to the water treatment facility 10 Information indicating the operation state of the facility including the quality of the treated water is periodically collected together with the facility ID, and the operation state is monitored in the management center 12. Under the operation management, for example, maintenance such as replenishment of consumables such as carboner or replacement of a deminer is performed to guarantee the operation quality of the water treatment facility. Regarding replacement of deminers, etc., it is necessary to recycle used deminers at dedicated processing factories, etc., and to perform only the replacement work at the site of water treatment facilities, so that there is a large amount of water treatment facilities including the incidental facilities. It is desirable to reduce the operational management burden (work burden) at the water treatment facility site.
[0017]
As described above, when the rental of the water treatment facility for a predetermined rental period is completed [Step S8], the water treatment facility (unit) is collected [Step S9]. Then, the plurality of units that have constructed the eliminated water treatment facility are stored as inventory, and the fact is registered in the above-described inventory management database DB [step S10]. By registering the collected units in the inventory management database DB in this way, the units can be reused and effectively used for construction of water treatment facilities for new orders.
[0018]
Thus, as described above, according to the present system for constructing and lending a water treatment facility having a facility specification corresponding to the required water treatment specification, a water treatment facility that generally requires a large facility cost, Rather than constructing it as a permanent facility that anticipates its maximum water treatment specification, it is possible to temporarily lend the water treatment specification for a period required by the customer according to the fluctuation. Specifically, when a large amount of treated water (pure water) is temporarily needed as production volume increases at a semiconductor manufacturing plant, or when a ship is equipped with a boiler at a shipyard, If that require treated water (pure water), further in the case, such as it is necessary to ensure the temporary large amounts of drinking water in disaster sites, water treatment facilities of the equipment specifications in response to these requests It can be easily constructed and installed at designated sites.
[0019]
In addition, when the water treatment facility is no longer necessary, the water treatment facility can be disassembled and recovered into the unit units described above, and can be reused repeatedly for other water treatment facilities for each unit. Therefore, the effect that the equipment cost and the operating cost can be suppressed sufficiently low is exhibited.
Further, according to the present system, it is possible to easily construct a water treatment facility having a facility specification that satisfies the water treatment specification by combining a plurality of types of units according to the required water treatment specification. Therefore, the equipment specification becomes excessive, and as a result, it is possible to effectively avoid the trouble that the equipment cost and the operating cost become high. In addition, when high-purity treated water is required, it is only necessary to add a unit with higher treatment performance in accordance with the quality, so that facility design is easy, and in this respect as well, facility costs can be reduced. It becomes.
[0020]
In addition, as described above, by designing the equipment based on the standard model 2e, even when special water treatment specifications are given, generally a combination of a plurality of types of units prepared in advance is used. Since it is possible to cope with the change, the facility design can be easily supported. Therefore, there is an advantage that a water treatment facility having equipment specifications corresponding to various water treatment specifications can be easily constructed.
[0021]
The present invention is not limited to the embodiment described above. For example, it is possible not only to prepare a plurality of types of units having different processing (function) contents as units to be prepared in advance, but also to prepare several units with different amounts of treated water. Moreover, what is necessary is just to handle the pump, storage tank (tank), etc. which are required when connecting each unit as one unit. In addition, the present invention can be variously modified and implemented without departing from the scope of the invention.
[0022]
【Effect of the invention】
As described above, according to the present invention, the inventory of a plurality of water treatment devices such as a filter unitized in advance is managed, and these units are combined in accordance with the water treatment specification to meet the water treatment specification. Since the water treatment facility is designed, it is possible to construct and lend out water treatment facilities of various specifications by effectively utilizing a plurality of units whose inventory is managed. Moreover, since the water treatment facility can be used only for a period of time that requires a large amount of treated water for the customer, the facility cost and the operation cost can be greatly reduced. It is made.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic facility construction example of a water treatment facility providing system according to an embodiment of the present invention.
FIG. 2 is a diagram showing a processing concept of equipment design according to water treatment specifications.
FIG. 3 is a diagram showing a construction example of a water treatment facility having facility specifications according to water treatment specifications.
FIG. 4 is a diagram illustrating an example of a maintenance mode of a water treatment facility.
[Explanation of symbols]
DB Inventory management database CF Activated carbon filter MF Miriboa filter RO Reverse osmosis membrane module KCDI Electric deionizer DZ Non-regenerative ion exchanger PF Membrane filter DC Degassing membrane S1 Water treatment condition input means S2 Equipment design means S3 Inventory Judgment means S7 Equipment construction means S9 Equipment (unit) collection means S10 Re-registration means to the inventory management database

Claims (3)

An inventory management database that manages the inventory of multiple types of units that are water treatment equipment that is a component of the water treatment facility;
It determines the type of the units required to meet the required water treatment specifications, and facility design means for designing the equipment specifications by combining the plurality of kinds of units based on the determination,
Inventory judging means for judging the inventory of the unit necessary for constructing the equipment specification by referring to the stock management database according to the designed equipment specification;
According to this judgment result, a unit out of stock is manufactured, and on the basis of the designed equipment specifications, a facility construction means for constructing a water treatment facility using the inventory unit and installing it at a designated location;
When the water treatment facility is withdrawn from the designated location, a plurality of units that have constructed the water treatment facility are stored as inventory, and facility recovery means for registering information on the stored units in the inventory management database; ,
A water treatment facility providing system characterized by comprising: It said plurality of kinds of units, the activated carbon filter, a reverse osmosis membrane unit, electrodeionization device, non-regenerative ion exchanger, water treatment facilities providing system according to claim 1 is intended-film filter or Ranaru.   2. The water according to claim 1, wherein the facility design means obtains the type and the number of units necessary for constructing a facility specification satisfying the water treatment specification according to the water quality and the amount of water indicated in the water treatment specification. Processing equipment provision system.

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